Scalable pseudo-exhaustive methodology for testing and diagnosis in flow-based microfluidic biochips

Microfluidics is an upcoming field of science that is going to be used widely in many safety-critical applicationsincluding healthcare, medical research and defence. Hence, technologies for fault testing and fault diagnosis of these chips areof extreme importance. In this study, the authors propose a scalable pseudo-exhaustive testing and diagnosis methodology forflow-based microfluidic biochips. The proposed approach employs a divide-and-conquer based technique wherein, largearchitectures are split into smaller sub-architectures and each of these are tested and diagnosed independently.